Zinc stabilization with modified acrylamide based polymers and corrosion inhibition derived therefrom

ABSTRACT

New zinc stabilizing polymers containing at least 5 mole percent of a monomer represented by the structure: ##STR1## wherein: R is independently, at each occurrence, chosen from H and lower (C 1  -C 4 ) alkyl groups; 
     R&#39; is a hydrocarbonaceous bridging group containing from 1-12 carbon atom; 
     X is chosen from --SO 3  M, --OH, --COOM groups or mixtures thereof, 
     M is hydrogen or some other cation species; and 
     n ranges from 1-10, 
     are described. Also, the use of these polymers in combination with zinc salts, and in further combination with phosphate salts, to inhibit corrosion of iron containing metals, and other metals, when these metals are exposed to industrial waters is demonstrated. Deposit control or scale inhibition on these metals exposed to industrial waters is also observed.

This is a continuation application pending from U.S. Ser. No. 42,927, filed Apr. 27, 1987, now U.S. Pat. No. 4,898,686.

INTRODUCTION

Certain polymers have been known in the art which stabilize solutions containing zinc salts dissolved in water against precipitation in the presence of high alkalinity or in the presence of the precipitating anions, such as phosphates. Polymers which have found success in this application include low molecular weight water-soluble polymers containing acrylic acid and/or methacrylic acid, as well as polymers derived from the vinylic carboxylic acids mentioned above in combination with acrylamide, methacrylamide, or other vinylic monomers known in the art. Some other water-soluble polymers which have been found useful for this purpose are polymers that contain acrylic acid and/or acrylamide in combination with N-alkyl-substituted acrylamides.

When polymers of this type have been used in industrial waters in combination with soluble zinc salts in effective amounts, corrosion inhibition is observed on those metallic surfaces, particularly iron and steel surfaces, which are exposed to these industrial waters. Both corrosion inhibition and scale inhibition have been observed when these kinds of polymers have been used in combination with various water-soluble zinc salts and also in the presence of orthophosphate sources. Therefore, the art has shown that zinc salts in combination with certain kinds of zinc-stabilizing polymers and orthophosphate sources are useful as scale inhibitors, corrosion inhibitors, and the like, in industrial waters.

Recently a new series of polymers have been discovered, the use of which allows for additional zinc stabilization in high alkalinity waters. These new polymers have been determined to provide greatly improved corrosion inhibition and scale control where iron or alloys thereof which are exposed to industrial waters are treated with corrosion inhibitor compositions which contain water-soluble zinc salts and soluble phosphates along with these new zinc-stabilizing water-soluble vinylic polymers.

It is an object of this invention to provide a new zinc polymer combination which provides improved corrosion inhibiting properties for iron and steel exposed to industrial waters.

It is also an object of this invention to provide for corrosion inhibitor compositions which contain zinc salts which are soluble in water and additionally contain a certain type of zinc-stabilizing polymer as described below, and the use of these zinc-polymer combinations in further combination with ortho phosphate to greatly inhibit corrosion of iron and steel exposed to industrial waters, and simultaneously inhibit scale formation on these surfaces.

It is another object of this invention that the polymers described above as zinc-stabilizing polymers also particularly inhibit the formation of calcium and magnesium phosphate and/or phosphonate precipitation and used either in the presence or absence of other metallic species, including iron, zinc, manganese, and the like.

THE INVENTION

The new water-soluble vinylic polymers which have now been found to provide zinc stabilization in aqueous media are those polymers containing at least 5 mole percent of a randomly repeating mer unit represented by the formula: ##STR2## wherein: R is chosen individually, at each occurrence, from the group consisting of hydrogen, methyl, and ethyl groups;

R' is a multivalent hydrocarbonaceous bridging group containing from 1 to about 12 carbon atoms and which may be linear alkyl, branched alkyl, aryl, alkaryl, aralkyl, cyclic and mixtures thereof;

X is chosen from the group consisting of --SO₃ m, --OH, --COOM, and mixtures thereof; and

n ranges from 1 to 10;

wherein the ratio of zinc salt to zinc-stabilizing polymer ranges between about 100:1 to about 1:100.

M represents an electroneutralizing amount of a cationic species from the group consisting of H, Li, Na, K, Mg, Ca, NH₄ ⁺ protonated primary, secondary, or tertiary amines, quaternary amines, mixtures thereof, and the like.

As indicated above, to form a corrosion inhibitor composition, the combination must include a water-soluble zinc salt, and a zinc-stabilizing water-soluble vinylic polymer having a molecular weight ranging between about 1,000-100,000 and containing at least 5 mole percent of the mer unit represented by a formula given above as Structure I. The corrosion inhibitor formulations contain a corrosion inhibitor composition comprising:

(a) a water-soluble zinc salt; and

(b) a zinc-stabilizing water-soluble vinylic polymer having a molecular weight ranging between about 1,000-100,000 and containing at least five mole percent of a mer unit represented by the formula: ##STR3## wherein: R is chosen individually, at each occurrence, from the group consisting of hydrogen, methyl, and ethyl groups;

R' is a multicovalent hydrocrbonaceous bridging group containing from 1 to about 12 carbon atoms and which may be linear alkyl, branched alkyl, aryl, alkaryl, aralkyl, cyclic and mixtures thereof;

X is chosen from the group consisting of --SO₃ M, --OH, --COOM, and mixtures thereof; and

M is chosen, at each occurrence, from H, Na, K, Mg, Ca, NH₄, protonated amines, quaternary amines or mixtures thereof; and

n ranges from 1 to 10;

wherein the ratio of zinc salt to zinc-stabilizing polymer ranges between about 100:1 to about 1:100.

It is preferred that the corrosion inhibitor composition contain a zinc-stabilizing polymer which additionally contains at least one other mer unit derived from vinylic monomers chosen from the group consisting of acrylic acid or its water-soluble salts, methacrylic acid or its water-soluble salts, acrylamide, methacrylamide, maleic anhydride, maleic acid or its water-soluble salts, methyl vinyl ether, ethyl vinyl ether, maleamide, or mixtures of any of these other monomers, and perhaps may contain other vinylic monomers known in the art.

It is preferred that the corrosion inhibitor composition contain a zinc-stabilizing polymer which has the mer units described above and additionally contains at least 5 mole percent each of either acrylic acid, methacrylic acid, or their water-soluble salts, acrylamide, or mixtures thereof. It is particularly preferred that the corrosion inhibitor composition contain a zinc-stabilizing polymer having at least 5 mole percent of a monomer represented by the formula: ##STR4## wherein: R, R', X, and n have the same meanings as previously described,

and additionally contains at least 5 mole percent of each of the monomers acrylic acid or its water-soluble salts and acrylamide. The acrylic acid water-soluble salts can be the acrylate salts of sodium, potassium, lithium, ammonium, protonated primary amines such as methyl amine, protonated secondary amines, protonated tertiary amines, or quaternary amines, as well as magnesium, calcium, or mixtures thereof, and the like.

Specific examples of the monomer found to provide excellent zinc-stabilizing capacity are presented in Table 1. As one can see, Table 1 presents various kinds of substituted acrylamide monomers or substituted methacrylamide monomers that contain substituent groups chosen from the sulfonate group, the alcohol group, the carboxylic acid group, water-soluble salts thereof, and/or any mixtures thereof.

Although specific examples of a monomer or a randomly repeated mer unit is presented in Table 1, the polymers useful in this invention can be obtained either by vinylic polymerization of the represented mer unit or may also be obtained by modifying pendent amide containing polymers, such as polymers derived from the polymerization of acrylamide or methacrylamide. These types of polymers may be modified by certain reactions with functionally substituted amines to derive a transamidation product and would be represented by structure similar to the polymers that would be derived from the same vinylic polymerization mentioned above. The polymers found useful in this invention, therefore, can be derived by vinylic polymerization of monomers represented in Table 1 if these monomers are available, or they may also be derived by transamidation of pendent acrylamide or methacrylamide containing polymers by using in the transamidation reaction with a substituted amine containing sulfonate, carboxylate and/or other functional groups as represented above, to derive the substitution indicated in Table 1.

Although both vinylic polymerization techniques of monomers represented in Table 1, by themselves or in combination with other vinylic monomers as indicated above, or the transamidation of a preformed pendent amide containing polymer, as above described, or other techniques such as the synthesis of the mer unit by a transamidation technique or any other synthesis technique prior to the polymerization of said mer unit, or other synthetic technique for deriving polymers that would contain the equivalent of the monomer or mer unit represented in Table 1 is anticipated to obtain the polymers of this invention, other synthesis techniques could be used according to the knowledge of the artisan to obtain the polymers of this invention, and we do not intend necessarily to be limited by the synthetic techniques chosen to synthesize these polymers.

                  TABLE 1                                                          ______________________________________                                         For purposes of this patent application, the following                         abbreviations represent the monomer (or mer unit) indicated:                   Abbreviation                                                                            Monomer (Mer Unit)                                                    ______________________________________                                         AMS                                                                                      ##STR5##                                                             2-AES                                                                                    ##STR6##                                                             HAPS                                                                                     ##STR7##                                                             2-ABDA                                                                                   ##STR8##                                                             6-AHA                                                                                    ##STR9##                                                             AMPD                                                                                     ##STR10##                                                            APD                                                                                      ##STR11##                                                            MEA                                                                                      ##STR12##                                                            PASA                                                                                     ##STR13##                                                            THMAM                                                                                    ##STR14##                                                            4-AP                                                                                     ##STR15##                                                            2AAA                                                                                     ##STR16##                                                            Tyro                                                                                     ##STR17##                                                            Leu                                                                                      ##STR18##                                                            PA                                                                                       ##STR19##                                                            CYS                                                                                      ##STR20##                                                            ______________________________________                                    

Of these nitrogen modified and substituted acrylamide or methacrylamide compounds, it is particularly noted that compounds containing nitrogen substitution derived from aspartic acid, taurine, 2-aminomethyl-1,3-propane diol, aminomethylsulfonic acid, 4-aminophenol, 4-amino benzoic acid, 1-amino 2,3-propanediol, tris(hydroxymethyl)aminomethane, 2-amino-2-methyl-1-hydroxypropane, monoethanol amine, 2-amino-2-methyl-1,3-propanediol, 6-aminohexanoic acid 2-amino acetic acid, 2-amino-butanedioic acid, N-methylbutylamine, n-propylamine, 2-hydroxy-3-amino propanesulfonic acid, 2-aminoethanesulfonic acid, 4-amino phenylsulfonic acid, and the like.

These corrosion inhibitor compositions are particularly effective when the polymer also acts as a calcium phosphate inhibitor. This action as a calcium phosphate inhibitor is primarily measured in the absence of zinc ions in aqueous solutions. Therefore, the corrosion inhibitor composition described above contains polymers referred to as zinc-stabilizing polymers, which polymers also in and of themselves when added to water in an effective amount for the purpose of inhibiting the precipitation of calcium phosphate, do so.

Calcium phosphate inhibition is particularly important since the corrosion inhibiting effectiveness of the zinc-polymer complex is enhanced in the presence of orthophosphate anion, or a phosphorous-containing compound which can hydrolyze to form orthophosphate anions in the industrial waters. To be most effective, the ratio of zinc to orthophosphate to polymer should range between about 10:1:1 to about 1:25:100. The range of zinc to orthophosphate to polymer is preferably between about 2:1:1 to about 1:10:50, and most preferably between about 1:1:1 to about 1:10:10.

For the purpose of this disclosure the following copolymers or terpolymers have been found to be particularly useful: ##STR21## wherein R, R', X, and n have the meanings described above and wherein M=H, Na, K, Li, NH₄ ⁺, N⁺ R₃ H, NR₄ ⁺, and the like, or mixtures thereof; and

a, b, d are integers having the following relationships:

a:d may range from 0 to 100;

b:d may range from 0 to 100

d:(a+b) may range from 0.01 to 100,

and wherein the sum a+b+d is sufficient to achieve a molecular weight ranging from about 1000 to about 100,000, preferably between about 2,500 to about 85,000, and most preferably between about 5,000 to about 75,000.

Finally, the scale inhibiting and corrosion inhibiting zinc--polymer--orthophosphate combination may be admixed together in a single product formulation containing all these ingredients, or sources, or they may be added to the industrial waters incrementally or separately, as required. To better demonstrate the invention, the following tables are presented.

                                      TABLE 2                                      __________________________________________________________________________                             % Calcium Phosphate Inhibition                                                                     RPO3H2**                                                                              Zn2+***                                     Mer Units                                                                              Dosage Curves       Inhibition                                                                            Stabilization                               (mol %) ppm Polymer                                                                            Fe 2+*                                                                               RPO3H2                                                                               ppm polymer                                                                           ppm polymer                 Composition                                                                              Mw(H.sub.2 O)                                                                        AA AM X 5  7.5                                                                              10 Tolerance                                                                            Antagonism                                                                           15     5 10                                                                               15                      __________________________________________________________________________     AA/Am/AMS 71200 23 73  4                                                                               55   92 57    99    100    10                                                                               25                                                                               39                      AA/Am/AMS 67600 13 78  9                                                                               88   91 50    100    99    20                                                                               57                                                                               76                      AA/Am/AMS  7200 39 51 10                                                                               11   72 11    11           16                                                                               90                                                                               76                      AA/Am/AMS 11300 81  9 10                                                                               15   99  4    80           65                                                                               88                                                                               77                      AA/Am/AMS 43500 17 60 22                                                                               13   91  4    100          24                                                                               68                                                                               67                      AA/Am/AMS  7900 45 26 28                                                                               20   88 94    92           62                                                                               80                                                                               78                      AA/Am/AMS 69300 33 27 40                                                                               79 97                                                                               86 76    81            4                                                                               76                                                                               76                      AA/Am/AMS 81700 37 23 41                                                                               94 96                                                                               94 93    78    100    22                                                                               76                                                                               75                      AA/2-AES  30800 95     5                                                                               30 94                                                                               99 12     9           66                                                                               90                                                                               90                      AA/Am/2-AES                                                                              45300 52 40  7                                                                               70   93 96    93    100    10                                                                               89                                                                               92                      AA/Am/2-AES                                                                              53800 78 11 11                                                                                0   94 51    94           29                                                                               89                                                                               89                      AA/Am/2-AES                                                                              43200 34 54 11                                                                               91   99 74    91    100    11                                                                               79                                                                               82                      AA/Am/2-AES                                                                              10600 60 25 15                                                                               38 99   10    35           23                                                                               82                                                                               85                      AA/Am/2-AES                                                                              48400 27 27 46                                                                               94   100                                                                               76    94           36                                                                               87                                                                               87                      AA/Am/2-AES                                                                              44100 19 27 54                                                                               97   99 89    94     3     11                                                                               25                                                                               45                      AA/HAPS   32700 95     5     41                      69                        AA/Am/HAPS                                                                               17400 80  5 15                                                                                9   99 21    50             68                        AA/Am/HAPS                                                                               43100 31 49 20                                                                               70 90                                                                               95 32     8           16                                                                               73                                                                               72                      AA/Am/HAPS                                                                               25800 50 15 35     84 47     9             52                        AA/Am/HAPS                                                                               28600 20 10 70     89 95    51             32                        AA/Am/2-AAA                                                                              38600 85  5 10      4        4      0      19                        AA/Am/2-ABDA                                                                             13500 NA NA 12                                                                                8 89                                                                               100                                                                               35    10     0       63                        AA/Am/6-AHA                                                                              14100 50 35 15                                                                                8 94                                                                               98 88     8     2       75                        AA/Am/AMPO                                                                               16000 75 15 10   23                                                                               82 22     5     0       62                        AA/APO    32300 70 30         4                       0                        AA/Am/APO 14600 51 32 17                                                                               10 75                                                                               98 10     6     0       71                        AA/Am/MEA 11700 45 40 15     98 17     6             66                        AA/Am/MEA 56000 50 30 20                                                                               11 67                                                                               90 38    73     96      60                        AA/PA     31300 95     5      3                      55                        AA/Am/PA  11000 45 40 15   97                                                                               98       12     6       98                        AA/Am/THMAM                                                                              11600 45 50  5     99        8     0       70                        AA/HPA     7400 75    25                                                                               13   50 11                  4                                                                               82                                                                               76                      __________________________________________________________________________      *Initial Concentration of Fe + 2 = 3 ppm                                       **5.6 ppm HEDP and 8 ppm PBTC (as acid actives) are included in test           solution and 15 ppm of polymer actives were used based on the added            severity of the test                                                           ***5 ppm Zn + 2 (as Zn) was present and treatment ration = (ppm polymer        actives)/ppm Zn + 2                                                            NA = Not Available.                                                      

Test Procedures follows the teachings in a paper entitled "Role of Polymers in the Mechanism and Performance of Alkaline Cooling Waters Programs", Hoots and Crucil, NACE Corrosion '86, Paper No. 13, Mar. 17, 1986, which paper is incorporated herein by reference.

                                      TABLE 3                                      __________________________________________________________________________                                     Water                                                                   Return Hardness                                                                             Corrosion                                                                               Deposition                      Ratio          Concentration                                                                            Water  ppm   (mpy)    (mg/day)                        Zn:PO.sub.4 :Polymer                                                                    PCT TEST                                                                             of Polymer                                                                             pH                                                                               Temperature                                                                           as (CaCO.sub.3)                                                                      MS ADM SS                                                                               MS ADM SS                       __________________________________________________________________________     1:4:6    1     6.0 ppm of A                                                                           8.5                                                                              120° F.                                                                        560   1.9                                                                               0.1 0 33.3                                                                              2.8 9.8                      2:8:4    2     4.0 ppm of A                                                                           7.8                                                                              120° F.                                                                        200   1.2                                                                               0.2 0 21.0                                                                              2.2 6.5                      2:8:7.5  3     7.5 ppm of A                                                                           7.5                                                                              120° F.                                                                        1300  1.2                                                                               0.1 0 11.1                                                                              0.7 0.5                      1:4:6    4     6.0 ppm of A                                                                           8.5                                                                              120° F.                                                                        560   1.6                                                                               0.1 0 19.4                                                                              2.4 0.8                      2:8:4    5     4.0 ppm of B                                                                           7.8                                                                              120° F.                                                                        200   1.6                                                                               0.2 0 20.1                                                                              2.9 2.7                      2:8:7.5  6     7.5 ppm of B                                                                           7.5                                                                              120° F.                                                                        1300  1.2                                                                               0.1 0 16.6                                                                              4.2 2.1                      __________________________________________________________________________      A = 49 mole % Acrylic Acid, or its water soluble salt                          29 mole % Acrylamide                                                           22 mole % AMS                                                                  Molecular Weight = 32,100                                                      B = 60 mole % Acrylic Acid, or its watersoluble salt                           25 mole % Acrylamide                                                           15 mole % AMS                                                                  Molecular Weight = 16,400                                                

                                      TABLE 4                                      __________________________________________________________________________                             Water   Corrosion                                                                            Deposition                                     Conc. (ppm)       Hardness, ppm                                                                          (mpy) (mg/day)                                 PCT TEST                                                                             of Polymer      pH                                                                               as (CaCO.sub.3)                                                                        MS    MS                                       __________________________________________________________________________     A*    6 of Acrylic    8.5                                                                              450-650 4.7   60.3                                           Acid/EA (80/20)                                                          B**   6 of Acrylic acid                                                                              8.5                                                                              450-650 7.1   99.5                                           methylacrylate (80/20)                                                   C***  6 of Acrylic acid                                                                              8.5                                                                              450-650 3.0   52.5                                           homopolymer                                                              D (only                                                                              No Polymer      8.5                                                                              450-650 6.1   102.4                                    Zn + PO.sub.4)                                                                  E (No                                                                                6.0 ppm A                                                                              with    8.5                                                                              450-650                                                                                11.8  145                                     Zinc  2.0 ppm C                                                                              PO.sub.4 •4.0 ppm                                          __________________________________________________________________________      EA = ethyl acrylate                                                            *Zinc + phosphate • 1 ppm and 4 ppm respectively                         **Zinc + phosphate • 1 ppm and 4 ppm respectively                        ***Zinc + phosphate • 1 ppm and 4 ppm respectively                 

In Table 2, various copolymers and terpolymers have been tested for both calcium phosphate inhibition, iron tolerance, phosphonate antagonism, and zinc stabilization. The results indicate that polymers of acrylic acid, acrylamide, and the monomer described as AMS, are particularly of value.

Also, copolymers and terpolymers containing acrylic acid or acrylic acid, acrylamide, and the monomer referred to as 2-AES, are also seen to be particularly effective for both calcium phosphate inhibition and zinc stabilization.

Finally, copolymers and/or terpolymers containing acrylic acid or its water-soluble salts, or polymers containing acrylic acid, acrylamide and the monomer referred to as HAPS, are also seen to be effective for calcium phosphate inhibition and zinc stabilization. Other polymers, as described in Table 2, are seen to be effective calcium phosphate inhibitors and/or effective zinc stabilizers. A combination of these polymers with zinc is also demonstrated to be good corrosion inhibitor when placed in industrial waters in corrosion inhibiting effective amounts, and these industrial waters are exposed to iron, carbon steels, stainless steels, and other metallic alloys.

As can be seen, the molecular weights of these polymers normally run between about 1,000 and about 100,000, preferably run between about 2,500 and about 85,000, and most preferably run between about 5,000 and about 75,000.

Table 3 shows the use of certain of the formulations of the invention in pilot cooling towers. The pilot cooling tower systems are described in a paper presented at the 38th Annual Meeting of the INTERNATIONAL WATER CONFERENCE held in Pittsburgh, Pa., during November 1975, which paper is incorporated herein by reference. The test results show both corrosion results and deposition results on different metals under different conditions, which include pH, return temperature of recirculating cooling test waters, hardness content of water in terms of ppm calcium carbonate, and treatment levels of individual polymers which are respectively composed of 49 mole percent acrylic acid, 29 mole percent acrylamide, 22 mole percent of AMS per unit (Polymer A) and 60 mole percent acrylic acid, 25 mole percent acrylamide, 15 mole percent AMS mr unit Polymer. In one case (Polymer A), the molecular weight is about 32,100; in the other case (Polymer B), the molecular weight is about 16,400.

A comparison of results presented in Table 3 and 4 indicates that greatly improved corrosion inhibition and deposit control (or scale inhibition) is observed using the combination of zinc, orthophosphate, and the new polymers represented by the Polymers A and B. It is anticipated that similar improved results will be observed when substituting the other polymers of this invention, which polymers may contain effective amounts of the monomer (or mer units) described above, particularly in Table 1. 

Having described our invention, we claim:
 1. A corrosion inhibitor composition comprising:(a) a water soluble zinc salt; and (b) a zinc-stabilizing water soluble vinylic polymer having a molecular weight ranging between about 2500 to about 85,000, which polymer contains at least five mole percent of a repeating mer unit represented by the formula: ##STR22## wherein R is chosen, at each occurrence, from the group consisting of hydrogen, methyl and ethyl groups; andR' is a multi-covalent hydrocarbonaceous bridging group containing from 1-12 carbon atoms and which may be linear alkyl, aryl, cyclic and mixtures thereof; and X is chosen from the group consisting of SO₃ M, OH, COOM, and mixtures thereof; and provided that at least one OH group is presented; and n ranges from one to 10; and M is chosen from the group consisting of hydrogen, metallic cations, protonatial amines, quaternary amines and mixtures thereof; and further provided that the vinylic polymer also contains at least five mole percent of at least one of the mer units chosen from the group consisting of acrylic acid, methacrylic acid, maleic anhydride, maleic acid, acrylamide, methacrylamide, methyl vinyl ether, ethyl vinyl ether, and meleamide, and whereinthe weight ratio, a:b, of zinc salt (a) to zinc stabilizing polymer (b) ranges between about 100:1 to 1:100; and further wherein(a) and (b) are combined with an orthophosphate or orthophosphate source (c) such that the weight ratio of a:b:c ranges between about 10:1:1 to about 1:10:100.
 2. The corrosion inhibitor of claim 1 wherein the zinc-stabilizing polymer contains at least five mole percent of at least one off the mer units chosen from the group consisting of acrylic acid, methacrylic acid, acrylamide and methacrylamide.
 3. The corrosion inhibitor of claim 1 or 2 wherein the zinc-stabilizing polymer contains at least five mole percent of a repeating mer unit chosen from the group consisting of 2-ABDA, MEA, AMPD, APD, THMAM, 4-AP, Tyro, and PA.
 4. The corrosion inhibitor of claim 1 or 2 wherein the stabilizing polymer contains at least five mole percent each of the mer units obtained from monomers chosen from the group consisting of acrylic acid, acrylamide, and 2-ABDA.
 5. The corrosion inhibitor of claim 1 or 2 wherein the stabilizing polymer contains at least five mole percent each of the mer units obtained from monomers chosen from the group consisting of acrylic acid, acrylamide, and MEA.
 6. The corrosion inhibitor of claim 1 or 2 wherein the stabilizing polymer contains at least five mole percent each of the mer units obtained from monomers chosen from the group consisting of acrylic acid, acrylamide, and AMPD.
 7. The corrosion inhibitor of claim 1 or 2 wherein the stabilizing polymer contains at least five mole percent each of the mer units obtained from monomers chosen from the group consisting of acrylic acid, acrylamide, and APD.
 8. The corrosion inhibitor of claim 1 or 2 wherein the stabilizing polymer contains at least five mole percent each of the mer units obtained from monomers chosen from the group consisting of acrylic acid, acrylamide, and THMAM.
 9. The corrosion inhibitor of claim 1 or 2 wherein the stabilizing polymer contains at least five mole percent each of the mer units obtained from monomers chosen from the group consisting of acrylic acid, acrylamide, and 4-AP.
 10. The corrosion inhibitor of claim 1 or 2 wherein the stabilizing polymer contains at least five mole percent each of the mer units obtained from monomers chosen from the group consisting of acrylic acid, acrylamide, and Tyro.
 11. The corrosion inhibitor of claim 1 or 2 wherein the stabilizing polymer contains at least five mole percent each of the mer units obtained from monomers chosen from the group consisting of acrylic acid, acrylamide, and PA. 